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Unidirectional Gaussian One-Way Steering

Quantum Physics 2023-12-08 v1

Abstract

Steering is a type of quantum nonlocality that exhibits an inherent asymmetry between two observers. In a nondegenerate three-level laser coupled to a two-mode squeezed vacuum reservoir, we examine, under realistic experimental conditions, the Gaussian steering of two laser modes, A\mathcal{A} and B\mathcal{B}, generated within the cascade transitions, respectively. We find that the AB\mathcal{A}\rightarrow \mathcal{B} steerability is always higher than that from BA\mathcal{B}\rightarrow \mathcal{A}; in addition, the steering asymmetry cannot exceed ln2\ln 2, which implies that the state ϱ^AB\hat{\varrho}_{\mathcal{AB}} never diverges to an extremal asymmetry state. We show how squeezed noise can play a constructive role in realizing one-way steering. As the main result, we demonstrate that the state ϱ^AB\hat{\varrho}_{\mathcal{AB}} can exhibit one-way steering solely from AB\mathcal{A}\rightarrow \mathcal{B}, which we show to emerge as a consequence of the fact that the intensity difference of the modes A\mathcal{A} and B\mathcal{B} is verified to remain always positive, irrespective of the physical and environmental parameters of ϱ^AB\hat{\varrho}_{\mathcal{AB}}. The generated unidirectional one-way steering may provide a useful resource for the distribution of the trust in future asymmetric quantum information tasks.

Keywords

Cite

@article{arxiv.2312.04313,
  title  = {Unidirectional Gaussian One-Way Steering},
  author = {Jamal El Qars},
  journal= {arXiv preprint arXiv:2312.04313},
  year   = {2023}
}
R2 v1 2026-06-28T13:44:00.221Z